Human activity has made the weather wetter in a large slice of the Northern Hemisphere, say researchers. It has also made
the regions just south of the Equator wetter, and those just north of it drier.

Agriculture and human health have already been affected, Francis Zwiers of the Canadian Centre for Climate Modelling and Analysis
in Toronto and his colleagues report in Nature1.

This is the first evidence that human activity has altered rainfall patterns. "We expected rainfall patterns to change, but
there's been no conclusive evidence that we are seeing human effects," says climate researcher Nathan Gillett, of University
of East Anglia in Norwich, UK, one of the study's authors. "This study shows we are."

To show human influence, the researchers compared observed changes in rainfall during the twentieth century with those predicted
by 14 climate models, divided into three groups. One group contained estimates of human greenhouse-gas emissions, one included
only natural factors such as volcanic aerosols, and a third contained both.

The models including both human and natural influences gave the best fit to the observed trends. In the zone between 40 and
70 °N, which includes much of North America and most of Europe, rainfall increased by 62 millimetres per century between 1925
and 1999. The researchers estimate that between 50 and 85% of this increase can be attributed to human activity.

Similarly, most of the wetter weather between 0 and 30 °S is down to human activity. Previous studies had not detected a human
influence because the amount of global rainfall was analysed, which meant increases in some areas were masked by decreases
in others.

Drought and flooding

One place that has got drier is the Sahel region of Africa. Sandwiched between the Sahara and the rainforest belt, the Sahel
experienced severe drought — and famine — between the 1950s and 1980s.

"If you look for the regions where both models and observations show a decrease in rainfall it's obviously made it harder
to grow crops in those regions," says Gillett.

"In the far north we've seen an increase in average rainfall," he adds. "That will have increased stream flow in rivers, which
may have increased flooding in those regions."

The observed changes were larger than the models predicted, suggesting that projections of future human impact might be underestimates.

"This is a very important paper," says climate researcher Myles Allen of the University of Oxford, UK. "It identifies the
fingerprint of human influence. This means that the precipitation trends they identify may be harbingers of more to come."